Papers

Ivan Rojkov, Matteo Simoni, Elias Zapusek +2 more·Jul 25, 2024

We introduce a novel reservoir engineering approach for stabilizing multi-component Schrödinger's cat manifolds. The fundamental principle of the method lies in the destructive interference at crossings of gain and loss Hamiltonian terms in the coupl...

V. Arsoski·Jul 25, 2024

Quantum computing has the potential to solve many complex algorithms in the domains of optimization, arithmetics, structural search, financial risk analysis, machine learning, image processing, and others. Quantum circuits built to implement these al...

Nikiforos Paraskevopoulos, David Hamel, Aritra Sarkar +2 more·Jul 25, 2024

In the fast-paced field of quantum computing, identifying the architectural characteristics that will enable quantum processors to achieve high performance across a diverse range of quantum algorithms continues to pose a significant challenge. Given ...

Shuriku Kai, Michele Dall'Arno·Jul 25, 2024

The signaling dimension of any given physical system represents its classical simulation cost, that is, the minimum dimension of a classical system capable of reproducing all the input/output correlations of the given system. The signaling dimension ...

Yelleti Vivek, V. Ravi, P. R. Krishna·Jul 25, 2024

The clever hybridization of quantum computing concepts and evolutionary algorithms (EAs) resulted in a new field called quantum-inspired evolutionary algorithms (QIEAs). Unlike traditional EAs, QIEAs employ quantum bits to adopt a probabilistic repre...

Zack Weinstein, Jalal Ahmad, D. Podolsky +1 more·Jul 25, 2024

A computational phase transition in a classical or quantum system is a non-analytic change in behavior of an order parameter which can only be observed with the assistance of a nontrivial classical computation. Such phase transitions, and the computa...

Travis Hurant, Ke-jia Sun, Zhubing Jia +2 more·Jul 25, 2024

Accurate calibration of control parameters in quan-tum gates is crucial for high-fidelity operations, yet it represents a significant time and resource challenge, necessitating periods of downtime for quantum computers. Robust Phase Estimation (RPE) ...

Cole Kelson-Packer, A. Miyake·Jul 25, 2024

The interplay of unitary evolution and projective measurements is a modern interest in the study of many-body entanglement. On the one hand, the competition between these two processes leads to the recently discovered measurement-induced phase transi...

Matan Ben-Dov, I. Arad, Emanuele G. Dalla Torre·Jul 25, 2024

Circuit optimization is a fundamental task for practical applications of near-term quantum computers. In this work we address this challenge through the powerful lenses of tensor network theory. Our approach involves the full characterization of the ...

Ittay Alfassi, Dekel Meirom, Tal Mor·Jul 24, 2024

Quantum computers promise a great computational advantage over classical computers, yet currently available quantum devices have only a limited amount of qubits and a high level of noise, limiting the size of problems that can be solved accurately wi...

Pau Escofet, Alejandro Gonzalvo, Eduard Alarc'on +2 more·Jul 24, 2024

Quantum computers are expected to scale in size to close the gap that currently exists between quantum algorithms and quantum hardware. To this end, quantum compilation techniques must scale along with the hardware constraints, shifting the current p...

A. Sebastianelli, Francesco Mauro, Giulia Ciabatti +4 more·Jul 24, 2024

A significant amount of remotely sensed data is generated daily by many Earth observation (EO) spaceborne and airborne sensors over different countries of our planet. Different applications use those data, such as natural hazard monitoring, global cl...

D. Lonsdale, L. Goerigk·Jul 24, 2024

In all applications of Density Functional Theory there is always a degree of one-electron self-interaction error (SIE). Here, we propose a simple self-interaction correction by applying an effective core potential (ECP) that replaces no electrons: we...

Niall F. Robertson, Bibek Pokharel, Bryce Fuller +10 more·Jul 24, 2024

Tensor networks and quantum computation are two of the most powerful tools for the simulation of quantum many-body systems. Rather than viewing them as competing approaches, here we consider how these two methods can work in tandem. We introduce a no...

Kuan-Cheng Chen, Xiaotian Xu, Felix Burt +1 more·Jul 24, 2024

This paper introduces a noise-aware distributed Quantum Approximate Optimization Algorithm (QAOA) tailored for execution on near-term quantum hardware. Leveraging a distributed framework, we address the limitations of current Noisy Intermediate-Scale...

Margarite L. LaBorde, Soorya Rethinasamy, Mark M. Wilde·Jul 24, 2024

In quantum computing, knowing the symmetries a given system or state obeys or disobeys is often useful. For example, Hamiltonian symmetries may limit allowed state transitions or simplify learning parameters in machine learning applications, and cert...

Shaoxiong Wang, Yifei Hu, Yaoting Zhou +2 more·Jul 24, 2024

High degree of adjustability enables the holographic tweezer array a versatile platform for creating an arbitrary geometrical atomic array. In holographic tweezer array experiments, an optical tweezer generated by a spatial light modulator (SLM) usua...

Luise Prielinger, Á. G. Iñesta, Gayane Vardoyan·Jul 24, 2024

When physical architectures become too complex for analytical study, numerical simulation proves essential to investigate quantum network behavior. Although highly informative, these simulations involve intricate numerical functions without known ana...

Kapil Goswami, Gagan Anekonda Veereshi, P. Schmelcher +1 more·Jul 24, 2024

The travelling salesman problem (TSP) is a popular NP-hard combinatorial optimization problem that requires finding the optimal way for a salesman to travel through different cities once and return to the initial city. The existing methods of solving...

Christopher Corlett, Ieva ˇCepait˙e, A. Daley +5 more·Jul 24, 2024

We present a scheme for speeding up quantum measurement. The scheme builds on previous protocols that entangle the system to be measured with ancillary systems. In the idealized situation of perfect entangling operations and no decoherence, it gives ...